DE1229590B - Magnetic shift register - Google Patents

Description

FEDERAL REPUBLIC OF GERMANY GERMAN ^ t ^ PATENT OFFICE Int. CL:

GlIc

EDITORIAL

German class: 21 al-37/64

Number: 1 229 590

File number: A 40086IX c / 21 al

Filing date: April 27, 1962

Opening day: December 1, 1966

Magnetic shift registers are known which operate on the basis of the transfluxor principle ring-shaped magnetic cores exist, in which the main opening of a relatively large diameter surrounding core material at least two 5 smaller exit openings are provided. the Magnetic cores take two different types of characterization of the information data to be stored States of magnetic remanence. Using two at the same time as shift windings serving clearing windings, which each the even cores or the odd cores of the shift register are assigned, a stored data signal is shifted from a core to the next following core, and there are transmission preparation windings provided, which in series switched through the exit openings of the core and in preparation of the data transfer the direction of polarization of the magnetic flux around the output opening of one in the energized state is as follows reverse the located core. The use of such transfer preparation windings brings with the advantage that the signal transmission process from one core to a subsequent core is associated with a deletion of the transmitting core, so that in the transmission process it the formation of a remanent magnetism corresponding to the state of excitation cannot occur, which, when the core is deleted, has an undesirable effect on the neighboring cores could have.

It is also already known from French patent 1,214,389, optionally a data shift to be carried out in a shift register to the right or to the left. With this well-known However, the arrangement does not apply to the use of a transfer preparation winding. It rather, the displacement current is fed directly to the transformer windings. As a consequence, that, if the displacement current supplied to the transformer winding does not reach its prescribed correct Has value, the change in magnetic flux will spread to the inlet opening of the core can, d. That is, there is the disadvantage discussed above that there is a possibility of generating interfering signals results. The characteristic properties of a core, however, depend heavily on the temperature, and accordingly the allowable with such an arrangement also fluctuates Limit value of the displacement current that must not be exceeded.

The invention therefore envisions the use of magnetic shift registers

Applicant:

AMP Incorporated,

Harrisburg, Pa. (V. St. A.)

Representative:

Dr. phil. G. B. Hagen, patent attorney,

Munich-Solln, Franz-Hals-Str. 21

Named as inventor:
Joseph Patrick Sweeney,
John Charles Mallinson,
Harrisburg, Pa .;
William Kirk English,
Menlo Park, Calif. (V. St. A.)

Claimed priority:

V. St. v. America May 10, 1961 (109 057)

Preparatory windings for the transfer, which not only bring the advantage that is known per se, To make compliance with narrow tolerances of the displacement current unnecessary, but it can be the Direction of the shift in the register through an optional control of the operation of the transmission preparation winding determine.

A shift register consisting of a series hold of magnetic cores, each of which is core has a large main opening and at least two small exit openings and two different states assume magnetic remanence to characterize the information data to be stored can, using two quenching windings that also serve as displacement windings, which are each assigned to every second core and a data shift from one core effect on the next core, and using transfer preparation windings, which pass through the output openings of the cores in series and in preparation for the data transmission the direction of polarization of the magnetic flux around the exit opening of an excited core reverse, is characterized according to the invention in that the two each through different exit openings of a core conducted transmission preparation windings independently of each other are excitable and each nucleus with its two neighboring nuclei by two transmission

609 729/295

3 4

windings, which act through the small output windings, while the winding

Exit openings of the cores are guided, and which hung through the openings 18 and 24 of the cores 12

Arrangement is designed such that under the and 13 are only wound once, with the last

Influence of the extinguishing and displacement current one of said openings serve as inlet openings,

energized core when an excitation current 5 is supplied. The transformer windings 30 and 34 are used for

for the one transmission preparation winding purpose of shifting data from right to left

a data shift after that on the one hand and each extend once through the small

adjacent following core causes openings 18 and 38, which act as inlet openings

one excitation current to the other transfer work, and twice through the small openings 32

Preparatory winding a data shift to io and 36 of the cores 12 and 13, which are used as output

causes the other neighboring nucleus. openings act.

A preferred embodiment of the invention The core 11 has an input winding 40 which provides that in each case three nuclei pass through one of the outer legs of the small one. opening Output opening of a core provided over 38 surrounds, and an output winding 44, the two-carrier winding are coupled together, being 15 times around the outer leg of the small opening the first two cores of the shift register with 42 is wound, while the core 13 is an Ausdem last core a group of three cores form winding 28, which form twice around the outer and the first core of the shift register leg of the small opening 26 is wound,, and with the last two cores of the shift register has an input winding 28 'which once around the forms a second group of three cores each. An outer leg of the small opening 24 of the core Such a circuit allows the data to be wrapped in every 13th. The input windings and the any direction as a closed current output windings can with further cores loop working shift registers to be coupled through. -: let, with Aüsg8i £ gswicklungs for a parallel one shifting winding SO for shifting Extract the data from further small openings of the 25 cores from an odd core to an even core can enforce, extends according to Fig. Id through the large opening

The invention is described below in the combination of the cores 11 and 13, and a sliding curtain with the drawings in two exemplary embodiment 52 for moving one straight line play discussed. From the figures shows core to an odd core extends through

1a to 1c show an embodiment of a 30 the main opening of the core 12; the windings50

double-acting magnet and 52 according to the invention have a common holding purpose

table shift register using serving portion 54 of each of the small openings

Magnetic cores with multiple openings, 26, 32, 20, 36, 17 and 42 interspersed. The winding

Fig. 2, an embodiment of another 54 provides a magnetomotive for holding purposes

Embodiment. 35 force the core material at the small openings

That ^; In the F ig ¹ , la to Ic shown displacement of the nuclei when the nuclei are deleted, so register consists of three nuclei, although under practical conditions a nucleus, which is in the state of excitation, a larger number of nuclei, not deleted will. Otherwise the erase would apply, for example twelve cores. The process of causing an undesired signal in the transmitter three cores 11 to 13 consist of magnetic winding, which extends in the opposite material, for example ferrite, and can extend in two additional directions than the information levels - the magnetic remanence. A data should be transmitted
each core has a central main opening that corresponds to FIG. 1 c shows a first transmission preparation opening of the toroid, and four small opening windings 60, which are shifted for the purposes of the data, which are offset symmetrically around the main opening 45 transmission from left to right. '. ... \ - ■ "..- · * register is used and each one of the small openings 17, .. The cores II and; 13 are to penetrate the odd cores, 20 and 26; a second transmission, i.e., 'the odd' The straight core is the numbered cores and the preparatory winding 62 passes through the small opening core 12, the core material between 32, 36 and 42 and serves the purpose of seeing a small opening and the main opening 50 data shifting in the shift register of one The core is referred to as the inner leg of the small right to left. The windings 60 opening, and the core material between and 62 have a common portion 64 that _{penetrates the "} small opening" of the core and the outer edge of the main openings of each core of the core is referred to as the outer leg - the small and the influence of an excessively high amplitude of the opening .. ·. 55 transmission preparation current prevented ratio of the windings 60 and 62 by Fig. La to Ic. only a few of the windings, the small openings are such that the part 64 actually contains about 3: 1 windings in a shift register through the large openings, which has all the windings in FIG.
to 1 c are shown .. 60 £> _as shift registers operating in the following

In Fig. La the cores are so with each other clock rhythm ·

connected that a transmission of information l ... transmission preparation,

data through the transmission windings 16, 30, 22 "^. °,. ,

and '34 occurs; windings 16 and 22 serve ² · · · data shift of an odd

the purpose of transferring information data from left to right 65 ^{Kem on emen} § ^{eraden Kem} '

to move in the figure. Windings 16 and 3 ... transfer preparation,

22 enforce twice the smaller openings 4 ... data shift from a straight line

Ϊ7 and 20 of the cores 11 and 12, which as a small core to an odd core.

5 6

The way data is shifted in the register couples the cores 104-106 together. the

shall be, hereinafter in connection with the right small opening of each core serves as

Shift from core 11 to core 12 starting winding for shifting from right to

be written. It is believed that the left; the lower small opening of each uneven

Core 11 is in its excited state 5 the core and the upper small opening of each

and the magnetic flux in the inner leg of each small straight core serves as an entrance port for both

Exit opening of the core 11 in the counterclockwise transmission directions.

is polarized, while the magnetic flux is clockwise in the outer leg of each small opening. 122 is sense polarized for the purpose of transmitting data. If now the transmission io from left to right in the register provided preparation winding 60 is excited, the right and through the right small exit opening is the exit opening 17 of the core 11 for the over- each core; A second transmission lecture is prepared, ie the polarization of the processing winding 124 is reversed for the transmission of magnetic flux at the opening, so that information data is provided from right to left Output opening is polarized and the magnetic flux in the outside of each core. An odd-even leg is polarized counterclockwise. Sliding winding 126 traverses the main opening If the core 11 is now extinguished by every odd core, and an even-un-energizing of the sliding winding 50, the polar wheel sliding winding 128 traverses the main station of the magnetic flux in the outer leg of the small opening of each straight core,
The opening 17 is reversed, and thereby the winding 1.36 for transferring information transfer winding. 16 is energized, and the energization data from the core 106 to the core 101 state of the core 11 is transferred to the core 12. back wraps around the outside with two turns because the small exit opening 42 is not in the for. leg of the right small opening 134 of the core was the transmission prepared state, when 25 106 and with two turns of the outer leg the excitation of the winding 50 took place, that of the left small opening of the core 102 and with deletion of the core 11 causes no signal in the Winding of one turn the inner leg of the lower Klei-44, since no change in magnetic flux in the outer leg of the opening 138 of the core 101. Another winding opening 42 occurred when the core 11 was erased. treatment 142 for transferring data from core 101. The data transfer from an even core to 30 back to core 106 wraps around an odd core in the same way against the outer loop of the left small opening by exciting winding 52 instead of winding 140 des Core 101 and with two turns lung-50. Outer limbs of the right small opening of the

Data is only from left to right in the core 105 and with one turn the inner leg

Register transferred when an excitation of the over- 35 the upper small opening of the core 106.

Tragungs -preparufigswickel 60 before excitation Input windings for inputting

of the shift and erase windings 50 or 52 data into the register the upper small opening of the

takes place; a transfer from right to left core 101 and the lower small opening of the core

only occurs in the register if the transmission fronts 106 prevail. ■ ■. -.

preparation winding 62 before the excitation of the 40 It is now the data shift in the

Sliding windings 50 or 52 is excited. Registers are discussed, with the data differences

Every unused small opening of every exercise from core 101 to core 103 is treated

Kernes can be used with one output winding. To information data from left to

in order to take parallel information data to move right in the register, is under

to be able to. 45 assuming that the core 101 is excited, the winding

That in Fig. 2, the two-way valve 122 shown is energized, so that a transmission preparation

Shift register contains a plurality of openings each of the output opening 108 of the core 101.

gene having cores 101 to 106 that finds the cores; thereafter the winding 126 is energized so that

11 to 13 of FIGS. 1 a to 1 c correspond; the core 101 is erased and there is a current flow

named cores 101 to 106 are connected to one another by 50 in the transformer winding 114, which results in a

the transmission windings 114, 116, 118 and 120 causes the core 102 to be excited. This current brings

coupled so that the nuclei groups of three also put the nucleus 103 in the excited state. the

form coupled nuclei. The winding winding 126 is, however, again excited so that

treatment 114 interspersed with two turns, the small core 103 is deleted, so that the winding

Output opening 108 of the core 101 and with two 55 treatment 114 flowing current now no excitation

Convolutions has resulted in the outer limb of the small one of the core 103. The winding

right-to-left transmitting port 110 of 122 is then energized to initiate a transmission

Kernes 103 and with one turn the inner part of the right small opening of the kernel

kel of the small 102 acting in both directions, after which the winding

Inlet opening 112 of the core 102. The winding 60 is energized and the core 102 shifts and 128

114 thus connects the nucleus group, which consists of the nucleus, thereby raising the state of excitation of the nucleus 102

numbers 101 to 103. the core 103 by exciting the transformer

The other transformer windings are transferred in analogy 116, as was previously the case with the data

Lichex manner as the winding 114 is arranged and transfer from the core 101 to the core 102

link the following core groups with 65 was localized. In the same way, data from

other: the winding 116 couples the cores 102 until the core 103 is transferred to the core 104. 104 with each other; winding 118 couples the shift register's clock cycles according to FIG

Cores 103 to 105 with each other; the winding 120 F i g. 2 are as follows:

.. transfer preparation,

.. data shift from an odd to an even core,

.. deletion of the odd kernels,

.. transfer preparation,

.. data shift from an even core to an odd core,

.. deletion of the even cores.

IO

To shift data from right to left in the register, the same operation occurs, except that instead of winding 122, winding 124 is energized. The windings 14 and 142 allow the shift register to operate as a closed current loop in which the data can circulate in any direction. There can be output windings for a parallel extraction of data through the unused small openings of the cores. ao

Claims (3)

Patent claims: 1. Shift register, consisting of a series connection of magnetic cores, of which each core has a large main opening and at least two small output openings and can assume two different states of magnetic remanence for characterizing the information data to be stored, using two erasure windings that also serve as shift windings, which are each assigned to every second core and cause a data shift from one core to the next core, and using transmission preparation windings, which pass through the output openings of the cores in series and, in preparation for data transmission, the polarization direction of the magnetic flux around the output opening of a reverse excited core, characterized in that the two transmission preparation windings (60, 62; 122, 124) each guided through different output openings of a core can be excited independently of one another and each core with its two adjacent cores by two transmission windings (16, 34; 116, 118) , which are guided through the small output openings of the cores, and the arrangement is designed in such a way that, under the influence of the extinction and displacement current, an excited core is supplied when an excitation current is supplied to the one transmission preparation winding (60, 122 ) causes a data shift to the next adjacent core on one side, causes a data shift to the other adjacent core when an excitation current is supplied to the other transmission preparation winding (62, 124). 2. Shift register according to claim 1, characterized in that the transmission windings (114) also have a small opening (110) of the second following core. (103) enforce so that in each case groups of three cores (101,102,103 ) are coupled to one another by the output windings (114). 3. Shift register according to claim 2, characterized in that the first two cores (101, 102) of the shift register with the last core (106) of the shift register form a group of three cores and the first core (101) of the shift register with the last two Cores (105, 106) of the shift register forms a second group of three cores each. Considered publications:
German Patent No. 1138 564;
U.S. Patent No. 2,968,795. 1 sheet of drawings 609 729/295 11.66 © Bundesdruckerei Berlin